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Recent Suzaku Results on Strongly Magnetized Neutron Stars

Recent Suzaku Results on Strongly Magnetized Neutron Stars. Kazuo Makishima ( University of Tokyo and RIKEN ) T. Enoto, T. Mihara, M. Nakajima, K. Nakazawa, & Y. Terada. 10. BeppoSAX. Ginga. (Gauss). Log B. RXTE. 8. ASCA. 13. Suzaku. 12. 6. 4. Number. 2. 0. 2. 20. 10.

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Recent Suzaku Results on Strongly Magnetized Neutron Stars

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  1. Recent Suzaku Results on Strongly Magnetized Neutron Stars Kazuo Makishima (University of Tokyo and RIKEN) T. Enoto, T. Mihara, M. Nakajima, K. Nakazawa, & Y. Terada X-ray Universe 2008

  2. 10 BeppoSAX Ginga (Gauss) Log B RXTE 8 ASCA 13 Suzaku 12 6 4 Number 2 0 2 20 10 100 5 50 Resonance Energy (keV) • Measurements of surface m.f. using electron cyclotron resonances; Ea = 11.6 (B/1012G) keV • Measured m.f. strengths clustered in (1~5)x1012 G(Makishima + 99). • “Field decay” hypothesis unlikely. • Resonance photosphere height depends on Lx (Nakajima Poster D.7). 1. Strongly Magnetized NSs • Is m.f. due to nuclear ferromagnetism (Makishima + 99)? • Magnetars really have 1014-15 G? • Any objects in between ordinary pulsars and magnetars? • Origin of the resonance width? X-ray Universe 2008

  3. PSR 1509 On-Off, 45 ks HXD-GSO HXD-PIN • [Accreting Binary Pulsars] • A0535+26Terada+ApJL (2006); Naik+ ApJ (2008) • Her X-1Enoto+ PASJ (2008); Terada+ AdSpRes (2007) • 4U 1626-67 • GRO J1008-57 (TOO) • [Rotation-Powered Pulsars] • The Crab pulsar • PSR 1509-58 Terada+ PASJ (2008) • [Magnetars] • 4U 0142+61Enoto+. in prep. • 1E 1841-045Morii+ AIPC (2008) • AXP CXOU J164710.2-455216 (TOO)Naik+ PASJ (2008) • SGR1900+14 (TOO) • SGR 1806-20 (TOO; burst+persistent)Esposito+ A&A (2008) 2. Suzaku Observations X-ray Universe 2008

  4. 42 keV 23 keV 36 keV 0.05 0.02 0.01 .002 2005 3. Crab Ratios HXD-GSO 2006 0.1 .01 Lx=4x1035 erg/s • A0535+26(Suzku,Terada+06) HXD-PIN • Her X-1 on-off(Suzaku, Enoto + 08)Lx=3x1037 erg/s 20 50 100 200 1 .1 .01 20 50 100 200 Energy (keV) • Continuum and absorption couple strongly. • Using regions near Ea1/2 and >3Ea1, define the continuum as • f(E)=AEα exp(-E/Ecut) • X0331+53(RXTE ; Nakjima + 08) • Lx=3x1038 erg/s 5 10 20 50 100 X-ray Universe 2008

  5. pivot 1 0.5 0.2 0.1 A0535+26 Her X-1 On-Off X0331 RXTE 0 50 100 150 200 Assuming spectrum = f(E)xexp[-S(E)], exp[-S] is plotted logarithmically. The vertical scale thus becomes -S itself. The energy axis is normalized to Ea1, and ordinatge is adjusted by ~20% The three objects exhibt very similar profiles. 4. Extraction of Absorption Profiles X-ray Universe 2008

  6. X0331 (PCA) Deconvolved νFν Her X-1 X0331 (HEXTE) A0535 (GSO) A0535 (PIN) Her X-1 10 20 50 100 keV F(E)=(aE-α+bEβ) exp(-E/Ecut) exp{-S1(E/Ea1)-S2(E/Ea2)} ・“NPEX” continuum : independent among the three. ・S1: Lorentzian xE2, common to the three as a function of E/Ea. ・S2 : likewise, but X0331 is allowed to have separate Ea2 and W2. 5. Joint Fitting of the 3 Pulsars Count Spectra D1=1.61 ± 0.06 W1/Ea1=0.36 ±0.02 D2=1.51 ± 0.13 χ2/ν=1.08 10 20 50 100 keV X-ray Universe 2008

  7. The 3 objects are in common physical conditions, despite the luminosity differences by ~3 orders of magnitude. cf. Not claiming that this applies to all accreting pulsars. • The NPEX continuum is justified; the1st and 2nd resonances heavily affect the continuum even in between Ea1 and Ea2. • Gaussian absorption cross section gives significantly worse joint fits than the Lorentzian x E2 cross section (Enoto et al. 2008); chi^2=347.43 vs. 307.01 for the same d.o.f=287. • The resonance width may not be explained by the thermal Doppler effects. Unexpectedly short lifetimes of the excited Landau levels (Enoto et al. 2008)? 6.Implications X-ray Universe 2008

  8. A0535+26 e+e- creation --> rush onto mag.poles --> non-thermal Bremss --> Compton back scatt. (Kotoku+07 PASJ) 0 0.5 1 1.5 2 Observed with Suaku on 2007 Aug. 13 for 93 ksec. 7. AXP 4U0142+61 (Enoto et al.) Soft pulsations are stable. Hard pulses vary on ~30 ks. Very hard component with Gamma~1. Improves INTEGRAL results (Kuiper+06). GSO XIS PIN P=8.688784 sec 1st 30 ks 2nd 30 ks3rd 30 ks 0.06 0.04 0.02 0 BGD-subtracted 10-70 keV folded pulse profile X-ray Universe 2008

  9. 8. Summary Spectra of accreting X-ray pulsars are strongly affected by electron cyclotron resonances, but the effects may be rather common among different objects. The continuum must be carefully determined using wide-band data. The spectrum of an AXP, 4U 0142+61. is clearly distinct from those of any accreting/rotating X-ray pulsars. A ultra-strong MF provides the most likely explanation. Existence of intermediate objects between magnetars and normal strong-field NSs is open (cf. Dr. Haberl’s talk). Further Suzaku observations are of great value. X-ray Universe 2008

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